JP2010532619A - Interworking procedure with external network in wireless LAN and message format therefor - Google Patents

Abstract

An interworking procedure with an external network in a wireless LAN, a station that supports the interworking procedure, and a message format for the interworking procedure are provided.
In an interworking procedure, a non-AP station transmits a request message including an advertisement protocol ID and a native question information ID, and the notification protocol ID includes a native query protocol. The native question information ID is set to a value indicating emergency call number information. The non-AP station receives a response message including zero or more emergency call numbers from an AP (access point) as a response to the request message.
[Selection] Figure 7

Description

  The present invention relates to a wireless local access network (WLAN), and more particularly, to an interworking procedure with an external network in a wireless LAN, a station supporting the same, and a message format therefor.

  Various wireless communication technologies have been developed along with the development of information communication technologies. Of these, wireless local access networks (WLANs) are based on radio frequency technology, such as personal digital assistants (personal digital assistants, PDAs), laptop computers (laptop computers), portable multimedia players (portables). A portable terminal such as Multimedia Player (PMP) can be connected to the Internet and / or an intra network wirelessly in a specific service providing area such as a home, a company, or an aircraft. Technology.

  In response to the increased use of wireless LANs, mobile terminal users, such as laptop computer users, can now work with increased mobility. For example, a user can take a laptop computer from his desk to a conference room to join a meeting while connected to his local network to receive data, regardless of a wired connection. You can connect to the Internet via a modem or gateway on your local network. Similarly, business travelers can use mobile terminals to connect to their email accounts to receive or send emails and to verify emails.

  Early wireless LAN technology supported speeds of 1-2 Mbps by frequency hopping, band spreading, infrared communication, etc. using 2.4 GHz frequency via IEEE 802.11. Recently, Orthogonal Frequency Division Multiplex (OFDM) technology or the like can be applied to a wireless LAN according to the development of wireless communication technology to support a maximum speed of 54 Mbps. In addition, in IEEE 802.11, quality of service (QoS) is improved, access point (Access Point, AP) protocol compatible, security enhancement, radio measurement or radio resource measurement (Radio Resource Measurement) Wireless Access for Vehicle Environment (Wireless Access in Vehicular Environment), Fast Roaming (Fast Roaming), Mesh Network (Mesh Network), Interaction with External Network (Inter-working with External Network, Wireless Network Management) Network M wireless communication technology for development and other applications, and is still under development.

  On the other hand, the IEEE802.11u standard, which is one of the wireless LAN standards, describes an interworking service (Interworking Service) in a wireless LAN. The main purpose of the interworking service is to enable communication of information from an external network for wireless LAN users, to help select connection networks, and to enable emergency services. . The IEEE802.11u standard specifies the medium connection control (Medium Access Control, MAC) and physical layer (Physical Layer, PHY) protocols necessary to achieve such an object.

  As described above, one of the purposes of the interworking service is to enable an emergency service using a wireless LAN. The emergency service can be performed by various methods, one of which is an emergency call to an emergency service center such as a fire department or an emergency room when an emergency situation occurs in the user. Call).

  In order for a terminal to make an emergency call with an emergency service center, a user must know information for identifying the emergency service center, for example, an emergency call number. Or, even if the user does not know the emergency call number, if the user requests an emergency call through the user interface of the terminal, such an emergency call number must be stored in the terminal. An emergency call cannot be made to the emergency service center.

  However, the emergency call number may be set differently for each country or for each region even if it is the same country. For example, in the case of Korea, the emergency call number used in the event of a fire or emergency situation is '119', but in the United States, '911' is used, and in Italy, the fire is '44444'. The ambulance uses '118', and in the UK, '999'. Even within the same country, the emergency service center call number for fire, distress, emergency medical situation, etc. may vary from region to region.

  As described above, the emergency call number may differ depending on the country and / or region. As a result, in order to make an emergency call to an emergency service center using a wireless LAN terminal, a user and / or terminal is connected or connected via a base station that is currently connected. You must know the emergency call number of the external network that can. However, it is practically impossible for the terminal to store all emergency call numbers that are different for each country and / or region, or for the user to memorize all of them. It is necessary to inform the emergency call number. In particular, the need to notify the emergency call number to the roaming terminal connected to the visited network is further increased.

  Accordingly, one problem to be solved by the present invention is that a procedure for interworking with an external network that can inform a terminal of an emergency call number of an external network in a wireless LAN, and a station that supports the procedure, And providing a new type of message format for this purpose.

  In addition, another problem to be solved by the present invention is that an external network that can provide an emergency call number to a terminal without questioning or requesting a distribution system (Distribution System) or a server of the external network at a base station. And interworking procedures and supporting stations, and a new type of message format for this purpose.

  In an aspect of the present invention, a non-AP station interworking procedure in a wireless local access network (LAN) is provided. The interworking procedure transmits a request message including an advertisement protocol ID and a native question information ID. The notification protocol ID is set to a value indicating a native query protocol, and the native question protocol is set. The information ID is set to a value indicating emergency call number information, and includes receiving a response message including zero or more emergency call numbers from an AP (access point).

  In another aspect of the present invention, an access point (AP) interworking procedure in a wireless LAN is provided. The interworking procedure receives a request message including an advertisement protocol ID and a native question information ID from a non-AP station, and the notification protocol ID is set to a value indicating a native query protocol. The native question information ID is set to a value indicating emergency call number information, and includes transmitting a response message including zero or more emergency call numbers to the non-AP station. .

  In another aspect of the present invention, a method is provided for constructing a GAS (general advertisement service) initial request message used in an interworking procedure in a wireless LAN. The GAS initial request message is a category field set to a value indicating a public action frame; an action field set to a value indicating a GAS initial response action; a GAS that is a response to the GAS initial request frame and the GAS initial request frame A dialog token field set by the requesting station to identify the exchange with the initial response frame; a notification protocol information element containing a notification protocol ID set to a value indicating the native question protocol; and a value indicating the emergency call number information A question request field including a set native question information ID is included.

  In another aspect of the present invention, a method for constructing a GAS (general advertisement service) initial response message used for an interworking procedure in a wireless LAN is provided. The GAS initial response message includes a category field set to a value indicating a public action frame; an action field set to a value indicating a GAS initial request action; a dialog token set to the same value as the corresponding GAS initial request frame A notification protocol information element including a notification protocol ID set to a value indicating a native question and answer protocol; and a question and answer field including an emergency call number element.

  In another aspect of the present invention, a non-AP (access point) station supporting an interworking procedure in a wireless LAN is provided. The non-AP station includes a processor for generating and processing a frame; and a transceiver coupled to the processor for transmitting and receiving the frame by the processor, wherein the processor includes a native query protocol (native query protocol). generating a GAS (generic advertisement service) initial request frame including the notification protocol ID set to a value indicating protocol and the native question information ID set to a value indicating emergency call number information The GAS initial request frame is forwarded to the transceiver, and the transceiver transmits the GAS initial request frame, and the AP transmits the GAS initial request frame to the transceiver. Receiving a GAS initial response frame including one or more emergency call numbers as a response to the AS initial request frame, forwarding the received GAS initial response frame to the processor; and The processor processes the GAS initial response frame.

  In another aspect of the present invention, an access point (AP) supporting an interworking procedure in a wireless LAN is provided. The access point includes a processor that generates and processes a frame; and a transceiver coupled to the processor to transmit and receive the frame by the processor. The transceiver receives a native query from a non-AP station. A GAS (general advertisement service) initial request frame including the notification protocol ID set to a value indicating a protocol (native query protocol) and the native question information ID set to a value indicating an emergency call number information And forwards the GAS initial request frame to the processor, and the processor processes the GAS initial request frame. And generating a GAS initial response frame including one or more emergency call numbers as a response to the GAS initial request frame, forwarding the GAS initial response frame to the processor, and The transceiver transmits the GAS initial response frame to the non-AP station.

  According to an embodiment of the present invention, a terminal (station) may request an emergency call number supported by the network from the base station even if it is not yet coupled to the wireless LAN via the base station (access point). it can. Also, if requested by the terminal, the base station can inform the terminal of one or more emergency call numbers. According to the embodiment of the present invention, even if it is a case before association, the user knows the contact information of the emergency service center supported via the corresponding network, or when necessary. Can store it in the terminal. Also, when an emergency situation occurs, an emergency call can be made using this contact information.

  In this case, the emergency call number may be data previously configured in the base station. According to this, even when there is an emergency call number request from the terminal, the base station can provide the emergency call number to the terminal without separately communicating with the distribution system or the server of the external network.

1 is a diagram illustrating an IEEE 802.11 interworking architecture including a wireless LAN system to which an embodiment of the present invention can be applied. 5 is a message flowchart for explaining a procedure for interworking with an external network according to an embodiment of the present invention; It is a block diagram which shows the format of the GAS initial request frame (Initial Request Frame) accompanying the one side of a present Example. It is a block diagram which shows an example of a format of the notification protocol information element of FIG. FIG. 5 is a block diagram illustrating an example of a format of a notification protocol set field in FIG. 4. It is a block diagram which shows the format of the GAS initial response frame (GAS Initial Request Frame) accompanying the one side of a present Example. FIG. 7 is a block diagram illustrating an example of a format of an emergency call number information element that can be included in the question and answer field of FIG. 6. It is a block diagram which shows the format of the GAS initial response frame (GAS Initial Request Frame) accompanying the other side surface of a present Example.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the invention can be embodied in many other forms and is not limited to the embodiments described below. This example is provided so that this disclosure will be thorough and complete, and will convey the spirit of the invention to those skilled in the art. In the embodiments and drawings, each element can be represented by a reference symbol for convenience. In the following embodiments, a wireless LAN (Wireless Local Access Network, WLAN) system will be described as an example of a wireless communication system, but this is merely an example.

  FIG. 1 is a diagram illustrating an IEEE 802.11 interworking architecture including a wireless LAN system to which an interworking procedure according to an embodiment of the present invention can be applied. The interworking service is defined in the IEEE 802.11u standard. The main purpose of the interworking service is to enable information transmission from an external network to assist network selection and enable emergency services. The IEEE802.11u standard defines various protocols for this purpose, for example, an interworking interface. A terminal that is a non-AP STA in the interworking service can connect to a service provided by the external network according to a subscription of the external network and other characteristics.

  Referring to FIG. 1, an interworking-capable access point (AP) in a wireless LAN system may interwork with an external network using a logical interworking interface. it can. In FIG. 1, the external network is symbolically displayed as a subscription service provider network (SSPN), and the specific configuration is not related to the embodiment of the present invention. The external network has an access point, AAA (Authentication, Authorization, and Accounting) and data connection through an interworking interface. In addition, the interworking interface is Portal and 802. Pass through xLAN transparently.

  The wireless LAN system includes one or more basic service sets (BSS). The BSS is a set of stations (Stations, STAs) that can be successfully synchronized and communicate with each other, and is not a concept indicating a specific area. The BSS can be divided into an infrastructure BSS (infrastructure BSS) and an independent BSS (Independent BSS, IBSS). The infrastructure BSS (BSS1, BSS2) includes one or more STAs (STA1, STA3, STA4), an access point (access point, AP) that is a STA that provides a distribution service, and a plurality of APs. Distribution system (DS). On the other hand, since IBSS does not include an AP, all STAs are composed of mobile stations (STA6, STA7, STA8). Since IBSS is not allowed to connect to DS, it forms a self-contained network. Embodiments of the present invention relate to infrastructure BSS.

  In a set of reachable networks defined in a service set identifier (SSID), a set of BSSs that can be provided to all BSSs from a BSS provided by the network is a HESSID (homogeneous extended service set identifier). Indicated by. All BSSs identified by HESSID must belong to the same mobility domain when one BSS is defined.

  The STA is an arbitrary functional medium including a medium access control (MAC) according to the specification of the IEEE 802.11 standard and a physical layer (Physical Layer) interface for a wireless medium. In a broad sense, the STA is an AP and a non-AP STA ( non-AP Station). Among these, the portable terminal operated by the user is a non-AP STA (STA1, STA3, STA4, STA6, STA7, STA8), and when simply referred to as STA, it may refer to a non-AP STA. The non-AP STA is a wireless transmission / reception unit (Wireless Transmit / Receive Unit, WTRU), user equipment (User Equipment, UE), a mobile station (Mobile Station, MS), a mobile terminal (PortableTerminal), or a mobile subscriber unit (PortableTerminal). It can also be called by other names, such as Mobile Subscriber Unit).

  The APs (AP1 and AP2) are functional individuals that provide a connection to the DS via a wireless medium for associated STAs (Associated Stations). In principle, communication between non-AP STAs in the infrastructure BSS including the AP is performed via the AP, and when a direct link is set, direct communication between the non-AP STAs is also possible. In addition to the name of an access point, the AP can also be referred to as a central controller, a base station (Base Station, BS), a node B, a BTS (Base Transceiver System), or a site controller.

  A plurality of infrastructure BSSs can be interconnected via a distribution system (DS). A plurality of BSSs connected through the DS are referred to as an extended service set (ESS). The STAs included in the ESS can communicate with each other, and the non-AP STAs can move from one BSS to another BSS without being disconnected within the same ESS.

  DS is a system for one AP to communicate with another AP. According to this, the AP transmits a frame for an STA related to a BSS managed by the AP, or transmits a frame when any one STA moves to another BSS, or a wired network or the like. Frames can be transmitted with external networks such as Such a DS has various types and / or characteristics as long as it can provide a predetermined distribution service defined in IEEE 802.11, since there are no restrictions on its form and characteristics. A network is possible.

  For example, the DS may be a wireless network such as a mesh network, or may be a physical structure (wired network) that connects APs to each other. In a wireless DS, for example, an IEEE 802.11s mesh network, end-to-end delay and throughput can be significantly reduced as compared to a wired network. However, the wireless network can be installed in a more flexible structure where the wired network is difficult to install. Regardless of whether it is a wired network or a wireless network, DS may have a certain difference in the data transmission speed and bandwidth supported according to the characteristics and performance. It may be different.

  FIG. 2 is a message flowchart for explaining a procedure for interworking with an external network according to an embodiment of the present invention. This embodiment is a procedure in which a terminal obtains an emergency call number for an emergency service center used in a specific area from a base station in order to support an emergency service from an external network. The emergency service center is, for example, a public safety answering point (PSAP) in the area or a default emergency call center in the area.

  Referring to FIG. 2, first, after performing an active scanning procedure (Active Scanning Procedure, S10 and S20) for exchanging a probe request frame and a probe response frame between a terminal (non-AP STA) and a base station (AP). Then, a general advertisement service (GAS) procedure (S30 and S40) is performed. The active scanning procedure (S10 and S20) shown in FIG. 2 is merely an example of a preliminary procedure of the general notification service procedure (S30 and S40). Even if not shown in the drawing, the preliminary procedure of the general-purpose service procedure (S30 and S40) includes, for example, only the scanning procedure and the authentication procedure (Authentication Procedure), or in addition, the additional procedure (Association Procedure) ) And / or a Reassociation Procedure. Therefore, according to an embodiment of the present invention, the general notification service procedure (S30 and S40) is performed between a terminal (non-AP STA) and a base station (AP) in a state before or after completion of the combining or recombining procedure. Can be carried out during.

  In general, the scanning procedure refers to a process in which a non-AP STA searches for candidate APs to which a non-AP STA is to join in a join or rejoin procedure. There are two types of such scanning procedures. The first method is a passive scan method that uses a beacon frame periodically transmitted from an AP. According to this, a non-AP STA trying to connect to the wireless LAN can search for a connectable BSS by receiving a beacon frame periodically transmitted from an AP managing the corresponding BSS.

  The second method is an active scan method as shown in steps S10 and S20 of FIG. According to this, a non-AP STA to connect to the wireless LAN system first transmits a probe request frame (S10). The AP that has received the probe request frame receives a probe response frame (Probe) including information such as a service set ID (Service Set ID, SSID) of the BSS managed by the AP and a capability value (Capability) supported by the AP. Response Frame) is transmitted to the non-AP STA (S20). Accordingly, the non-AP STA can know various information regarding the candidate AP along with the presence of the candidate AP through the received probe response frame.

  When the non-AP STA and / or the AP is a device that supports an interworking service, an interworking information element is included in a beacon frame, a probe request frame, and / or a probe response frame transmitted in the scanning process. Can be included. The interworking information element is for informing information on a non-AP STA or AP interworking service capability value.

  In addition, a beacon frame or a probe response frame transmitted by the AP may include a notification protocol information element (Advertisement protocol Information Element). The notification protocol information element is transmitted when the AP supports the interworking service and one or more general notification service targets are defined. This includes information identifying a specific notification protocol and the corresponding notification control. The notification protocol information element may include a notification protocol ID (Advertise Protocol ID) that can be supported by the AP.

  The authentication procedure is a process of negotiating an authentication procedure and an encryption method between individuals participating in wireless communication. For example, the non-AP STA can perform an authentication procedure with an AP to be combined from one or more APs searched in the scanning procedure (S10 and S20). Since the WLAN mainly uses an open system authentication method, the AP performs an authentication process without any condition in response to an authentication request from a non-AP STA. The authentication method further strengthened, IEEE802.1x based EAP-TLS (Extensible Authentication Protocol-Transport Layer Security), EAP-TTLS (Extensible Authentication Protocol-Tunneled Transport Layer Security), EAP-FAST (Extensible Authentication Protocol-Flexible Authentication via Secure Tunneling) and PEAP (Protected Extensible Authentication Protocol).

  When the authentication procedure is successfully completed, the non-AP STA can perform the association procedure with the AP. The association procedure means establishing an identifiable connection, that is, a radio link, between the non-AP STA and the AP. For the joining procedure, the non-AP STA first transmits a joining request frame (Association Request Frame) to the AP that has successfully completed the authentication procedure, and the AP responds with a response of “Successful”. An association response frame having a state value is transmitted to the non-AP STA. The association response frame includes an identifier that can identify the association with a specific non-AP STA, for example, an association ID (AID).

  Non-AP STAs may have other good channel conditions, such as when the connection between the non-AP STA and the AP deteriorates depending on the variable channel conditions even after the combining procedure is successfully completed. The association process can be performed again with the AP. This is referred to as a reassociation procedure. Such a recombination procedure is quite similar to the previously described combining procedure. More specifically, in the re-association procedure, the non-AP STA successfully performs the authentication procedure from among the other APs that are not currently joined APs (for example, candidate APs searched in the search process (S10 and S20) described above) The AP transmits a recombination request frame to the non-AP STA. However, the re-association request frame further includes information on the previously joined AP, and through this information, the re-joining AP can transmit data buffered in the existing AP to the non-AP STA. .

  Referring to FIG. 2, a non-AP STA attempting to obtain an emergency call number of a public safety response point (PSAP) or a default emergency call center used in a corresponding area is a native general notification service procedure (Native GAS Procedure). To AP (S30 and S40). The native GAS procedure is a procedure based on the native GAS protocol used for non-AP STAs to discover services supported via the AP.

  More specifically, first, the non-AP STA transmits a request message for requesting an emergency call number, for example, a general notification service initial request frame (GAS Initial Request Frame) to the AP (S30). The GAS initial request message includes at least a notification protocol ID (Advertisement protocol ID) set to a value indicating a native query protocol and a native question information ID (Set to a value indicating emergency call number information) ( (native query information ID). However, this is not a limitation.

  FIG. 3 is a block diagram showing a format of a GAS initial request frame (Initial Request Frame) according to one aspect of the present embodiment. The GAS initial request frame is one of the public action frames, and the public action frame is a communication between the BSS or between the AP and a non-AP STA that is not coupled to the AP, or a general notification service. Indicates the frame defined for the purpose. The public action frame includes a GAS initial request frame, a GAS initial response frame (Initial Response Frame), a GAS comeback request frame (Comback Request Frame), and a GAS comeback response frame (Comback Response Frame).

  Referring to FIG. 3, the GAS initial request frame includes a category field, an action field, a dialog token field, a notification protocol information element field, and a query request length (Query). A Request length field, and a Query Request field.

  The category field is set to a value indicating a public action frame. The action field is set to a value indicating the GAS initial request action. The dialog token field is set to an arbitrary value selected by the non-AP STA that transmits the GAS initial request frame, and identifies the exchange between the GAS initial request frame and the corresponding GAS initial response frame. It is.

  The notification protocol information element includes information for identifying a specific advertisement protocol and a corresponding notification control (its corresponding advertisement control). An example of the format of the notification protocol information element is shown in FIG. Referring to FIG. 4, a notification protocol information element includes an element ID (Element ID) field, a length (Length) field, and N (where N is a natural number) notification protocol set fields (Advertisement protocol Tuple # 1, Advertisement. protocol Tuple # 2,..., Advertisement protocol Tuple #N).

  The element ID field is set to a value indicating the notification protocol information element. The length field is set to a value indicating the sum of the lengths of the subsequent N notification protocol set fields. Each notification protocol set field includes a delivery method subfield, a question and response length limit subfield, and / or a notification protocol ID subfield. An example format is shown in FIG.

  The transmission method subfield is set to a value indicating a method of transmitting a frame for the notification protocol specified in the notification protocol ID subfield. For example, if the transmission method subfield is set to '1', it means that transmission is performed by a multicast method, and if the transmission method subfield is set to '0', it means that transmission is performed by a unicast method. . The question and answer length limit subfield is set to a value indicating the maximum length of information to be transmitted by the AP included in the question and answer field included in one or more GAS comeback response frames.

  In addition, the notification protocol ID subfield is set to a value indicating a native query protocol (Native query protocol). The native question and answer protocol is a mechanism used by non-AP STAs at the time of questioning in order to acquire locally provided data. That is, when there is a question from a non-AP STA, the AP immediately responds to the received question without inquiring the requested question from the server in the distribution system (DS) or the external network.

  Referring to FIG. 3, the question request length field is set to a value indicating the total length of information included in the subsequent question request field. The question request field is a GAS question and is formatted according to the protocol specified in the notification protocol information element. According to the present embodiment, an ID value indicating emergency call number information is set in the question / request field.

  Referring to FIG. 2, the AP transmits a GAS initial response frame (GAS Initial Response Frame) as a response to the received GAS initial request frame to the non-AP STA that is the requesting terminal (S40). The GAS initial response frame may include one or more requested emergency call numbers, or may not include an emergency call number. If the query request in the GAS initial request frame corresponds to the information provided in the AP, that is, if an emergency call number is stored in the AP, the GAS initial response frame receives the request. Contains one or more emergency call numbers. On the other hand, when the question request of the GAS initial request frame does not correspond to the information provided in the AP, that is, when the emergency call number is not stored in the AP, the GAS initial response frame includes the emergency call number. I can't.

  FIG. 6 is a block diagram showing a format of a GAS initial response frame according to one aspect of the present embodiment. As described above, the GAS initial response frame is one of the public action frames. Referring to FIG. 6, the GAS initial response frame includes a category field, an action field, a dialog token field, a status code field, a GAS question ID field, and a GAS group. Address (GAS Group Address) field, GAS Comeback Delay (GAS Comback Delay) field, Notification Protocol Information Element (Advertisement protocol information element), Question and Answer Length (Query Response Length), and Q .

  The category field is set to a value indicating a public action frame. The action field is set to a value indicating the GAS initial response action. The dialog token field is set to the same value as that set in the corresponding GAS initial request frame, that is, the received GAS initial request frame.

  The status code field is set to a value representing the result of response to the request. If the query request of the GAS initial request frame corresponds to the information provided in the AP, and if the requested information (eg, emergency call number) is included in the GAS initial response frame, the status code field Is set to a value indicating 'Successful'. On the other hand, if the GAS initial request frame does not correspond to the information provided in the AP, and if the GAS initial response frame does not include the requested information (for example, emergency call number), the status code The field is set to a value indicating 'Request Info not configured'. An example of a value set in such a status code field is, for example, the subsection 7.3.1.9.9 of the IEEE802.11-REVma / D9.0 (revision of IEEE Std 802.11-1999) standard. Is the value defined in.

  The GAS question ID field is set to a value indicating the question executed on behalf of the non-AP STA. In the present embodiment, “0” is set in the GAS question ID field. The GAS group address field is set to a value indicating the multicast group address when the response to the question is multicast, and is set to '0' if the response is unicast. The GAS comeback delay field is for specifying a delay time.

  The notification protocol information element includes information for identifying a specific advertisement protocol and a corresponding notification control (its corresponding advertisement control). An example of the format of the notification protocol information element has been described above with reference to FIG. The question and answer length field is set to a value indicating the total length of information included in the subsequent question and answer field.

  The question and answer field is a general-purpose container, and its value is a response to the GAS question and is formatted according to the protocol specified in the notification protocol information element. According to the present embodiment, the question and answer field includes an emergency call number information element. The emergency call number information element is for providing a list of public safety answering points (PSAPs) or default emergency call centers used in a specific area. An example for the format of the emergency call number information element is shown in FIG.

  Referring to FIG. 7, the emergency call number information element includes an information ID, a length (Length) field, a status code field (Status Code), and M (M is a natural number) emergency call number units (Emergency call number Unit #). 1, emergency call number unit # 2, ..., emergency call number unit #M). The information ID field is set to a value indicating emergency call number information. The length field is set to a value indicating the total length of subsequent fields. The status code field is set to a value indicating one of the meanings disclosed in Table 1.

Each emergency call number unit includes an emergency call number length subfield and an emergency call number subfield. The length of the emergency call number subfield is set to a value indicating the length of the emergency call number subfield. The emergency call number subfield is set to a value indicating emergency call digits supported by the corresponding network.

  FIG. 8 is a block diagram showing a format of a GAS initial response frame according to another aspect of the present embodiment.

  As shown in FIG. 8, the GAS initial response frame includes an element ID field (100) indicating that this message is a general notification service response message, and a length indicating the length of the subsequent field item. A length field (110), a field (120) including a notification protocol information element (advancement protocol information element), and a response information field (130).

  The response information field (130) includes an element identifier (Element ID) field (131) representing the response information field, a length field (132) representing the length of the subsequent field item, and a native information element (Native information element). Field (133). There may be a plurality of native information element fields (133). In this case, each native information element field (133) may include a plurality of information elements of the same type for each item.

  On the other hand, if any one of the native information element fields or one native information element field is present, the corresponding native information element field includes an emergency call number list element indicating emergency call information as described above. (Emergency call number list element). The emergency call number may be a telephone number or a URI, for example.

  This emergency call number list element includes an information identifier (info ID) field (133a) representing an emergency call number list element, a length (Length) field (133b) representing the length of the subsequent subfield, and an emergency call number list. It includes a status code field (133c) indicating a status to be notified to the terminal. In addition, a field (133d) indicating the length of the corresponding first emergency number (length of emergency number # 1) and a field (133e) indicating the emergency call number (emergency call number # 1) follow.

  The field (133d) indicating the length of the emergency number and the field (133e) indicating the emergency call number are paired. When there is one emergency call number, the field indicating the length of the emergency call number and the emergency call number 1 is also included, but when an AP transmits a plurality of emergency call numbers to a non-AP STA, the length of the plurality of emergency numbers (length of emergency call number # 2 to #n). ) Field (133f, 133h) indicating emergency call numbers (emergency call number # 2 to #n) (133g, 133i).

  The embodiment of the present invention described in detail above is merely an example for illustrating the technical idea of the present invention, and the technical idea of the present invention should not be construed to be limited by the above-described embodiment. The protection scope of the present invention is specified by the claims of the present invention.

  Although the invention has been described in characteristic terms and by way of exemplary embodiments, those skilled in the art will recognize that the form and details are within the spirit and scope of the invention as defined by the claims. Various changes can be made.

  The present invention relates to networking and communication protocols related to wireless communication technology and communication procedures in a wireless communication system, and also includes construction of a wireless communication system and equipment and devices (wireless stations and base stations) constituting the wireless communication system. It can be applied to the manufacturing of a station etc. In particular, the present invention relates to interworking with external networks in a wireless communication system.

100, 131 Element identifier (Element ID) field 110, 132, 133b Length (Length) field 120 Notification protocol information element (Advertisement protocol information element) field 130 Response information (response information) field 133 Native information element (Native information) Field 133a information identifier (info ID) field 133c status code (status code) field 133d length of emergency number (length of emergency number # 1) field 133e emergency call number (emergency call number # 1) field

Claims (17)

In an interworking procedure of a non-AP station in a wireless local area network (LAN),
A request message including an advertisement protocol ID and a native question information ID is transmitted. The notification protocol ID is set to a value indicating a native query protocol, and the native question information ID is an emergency call. An interworking procedure including receiving a response message set to a value indicating emergency call number information and including zero or more emergency call numbers from an AP (access point).   The interworking procedure according to claim 1, wherein the request message is a GAS (general advertisement service) initial request frame, and the response message is a GAS initial response frame.   The interworking procedure according to claim 2, wherein the GAS initial request frame includes a dialog token, a notification protocol information element including the notification protocol ID, and a question request element including the native question information ID.   The GAS initial response frame includes a dialog token having a value corresponding to the dialog token in the GAS initial request frame, a notification protocol ID set to a value indicating a native question and answer protocol, and one or more emergency call numbers The interworking procedure according to claim 3, comprising a question and answer element comprising   The question and answer element includes an information ID field set to a value indicating emergency call number information, a status code field set to a value indicating 'success', and one including the one or more emergency call numbers 5. The interworking procedure according to claim 4, comprising a native question and protocol information element comprising an emergency call number unit or higher.   The GAS initial request frame is a public action frame in which an action field is set to a value indicating a GAS initial request, and the GAS initial response frame is set to a value indicating an GAS initial response. The interworking procedure according to claim 2, which is a public action frame.   The interworking procedure according to claim 1, wherein the emergency call number is data set locally in the AP. In the interworking procedure of the access point (Access Point, AP) in the wireless LAN,
A request message including an advertisement protocol ID and a native query information ID is received from a non-AP station, and the notification protocol ID is set to a value indicating a native query protocol, and the native query information is set. An ID is set to a value indicating emergency call number information and an interworking procedure including transmitting a response message including zero or more emergency call numbers to the non-AP station. The request message is a GAS (general advertisement service) initial request frame, and the response message is a GAS initial response frame.
The GAS initial request frame includes a dialog token, a notification protocol information element including the notification protocol ID, and a question request element including the native question information ID.
The GAS initial response frame includes a dialog token having a value corresponding to the dialog token in the GAS initial request frame, a notification protocol ID set to a value indicating a native question and answer protocol, and one or more emergency call numbers The interworking procedure according to claim 8, comprising a question and answer element comprising: The question and answer element includes an information ID field set to a value indicating emergency call number information, a status code field set to a value indicating 'success', and one including the one or more emergency call numbers The GAS initial response frame is transmitted if the query request information element includes a native question protocol information element including an emergency call number unit or more and the query request in the GAS initial request frame corresponds to information set in the access point; The interworking procedure according to claim 9.   When the question request in the GAS initial request frame corresponds to information not set in the access point, the GAS initial response frame is a dialog token having the same value as the dialog token included in the GAS initial response frame; The status code set to “request information is not set”, a notification protocol ID set to a value indicating a native query protocol, and a question and answer element set to a value of “0”. Interworking procedure.   The interworking procedure according to claim 8, wherein the response message is transmitted to a server in a DS (Distribution System) or to an external network without proxying the request message. In a method for constructing a GAS (generic advertisement service) initial request message used for an interworking procedure in a wireless LAN,
The GAS initial request message is:
A category field set to a value that indicates a public action frame;
An action field set to a value indicating the GAS initial response action;
A dialog token field set by the requesting station to identify an exchange between the GAS initial request frame and a GAS initial response frame that is a response to the GAS initial request frame;
A notification protocol information element including a notification protocol ID set to a value indicating a native question and answer protocol; and a question request field including a native question information ID set to a value indicating emergency call number information. In a method of constructing a GAS (generic advertisement service) initial response message used for an interworking procedure in a wireless LAN,
The GAS initial response message is:
A category field set to a value that indicates a public action frame;
An action field set to a value indicating the GAS initial request action;
A dialog token field set to the same value as the corresponding GAS initial request frame;
A method comprising: a notification protocol information element including a notification protocol ID set to a value indicating a native question protocol; and a question and answer field including an emergency call number element. The emergency call number element is
An information ID field set to a value indicating emergency call number information;
A status code field set to a value indicating 'success'; and one or more call number units, each including an emergency call number length subfield and an emergency call number subfield, The method of claim 14, wherein a length subfield represents a length of the emergency call number subfield, and the emergency call number subfield includes network-assisted emergency call digits. In a non-AP (access point) station that supports an interworking procedure in a wireless LAN,
A processor for generating and processing a frame; and a transceiver coupled to the processor for transmitting and receiving the frame by the processor;
The processor includes the notification protocol ID set to a value indicating a native query protocol and a GAS (generic) including the native query information ID set to a value indicating an emergency call number information. advertisement service) generates an initial request frame, forwards the GAS initial request frame to the transceiver,
The transceiver transmits the GAS initial request frame and receives a GAS initial response frame including one or more emergency call numbers as a response to the GAS initial request frame from the AP. A non-AP station that forwards the received GAS initial response frame to the processor, and wherein the processor processes the GAS initial response frame. In an access point (AP) that supports an interworking procedure in a wireless LAN,
A processor for generating and processing a frame; and a transceiver coupled to the processor for transmitting and receiving the frame by the processor;
The transmitter / receiver receives the notification protocol ID set to a value indicating a native query protocol and a value indicating an emergency call number (emergency call number) information from a non-AP station. Receiving a GAS (general advertisement service) initial request frame including an information ID, and forwarding the GAS initial request frame to the processor;
The processor processes the GAS initial request frame and generates a GAS initial response frame including one or more emergency call numbers as a response to the GAS initial request frame. And, further, the transceiver transmits the GAS initial response frame to the non-AP station.